Semiautomatic determination of orientations and elastic strain from Kossel microdiffraction
Communication avec acte
Abstract
The technique of divergent beam X-ray (Kossel) diffraction is being used for determination of local lattice orientations and lattice distortions (elastic strains). The Kossel patterns are recorded in a scanning electron microscope using a digital camera. The advancement in automation of the of the system relies on computerized interpretation of the Kossel patterns. The paper reports on a package of computer programs facilitating computation of orientations and the strain tensors from the geometry of Kossel conics. The orientation and strain parameters are determined based on conics marked manually on experimental patterns; these marked conics are matched with simulated patterns. The program can simultaneously match multiple patterns originating from the same sample location. The software does not require special orientations, and it is not limited to any particular material. Tests on simulated patterns have been used to confirm the internal consistency of the program. These tests also indicate the achievable accuracy; with the current approach, it is estimated to be about 3×10-4.
Files in this item
Related items
Showing items related by title, author, creator and subject.
-
Article dans une revue avec comité de lectureINAL, Karim; PATOOR, Etienne; LECOMTE, Jean-Sébastien; EBERHARDT, André; BERVEILLER, Sophie; PESCI, Raphaël (Trans Tech Publications Inc, 2006)A Kossel microdiffraction experimental set up is under development inside a Scanning Electron Microscope (SEM) in order to determine the crystallographic orientation as well as the inter- and intragranular strains and ...
-
Article dans une revue avec comité de lectureWANG, Qian; XU, Shun; LECOMTE, Jean-Sébastien; SCHUMAN, Christophe; PELTIER, Laurent; SHEN, Xiao; SONG, Wenwen (Elsevier, 2019)Ti and its alloys have a variety of applications in aerospace industry and medical implants. The formation of hydride has been used in biomedical areas and can significantly influence the mechanical performance of materials. ...
-
Article dans une revue avec comité de lectureWANG, Qian; LECOMTE, Jean-Sébastien; SCHUMAN, Christophe; PELTIER, Laurent (Elsevier BV, 2022)In this work, the mechanical properties of hydride diffusion layer were thoroughly researched by nano indentation technique. For the first time, the clear section microstructure of hydride diffusion layer was revealed ...
-
Article dans une revue avec comité de lectureAMOUZOU-ADOUN, Yaovi Armand; JEBAHI, Mohamed; FIVEL, Marc; FOREST, Samuel; LECOMTE, Jean-Sebastien; SCHUMAN, Christophe; ABED-MERAIM, Farid (Elsevier BV, 2023-04)Although presenting attractive features in dealing with small-scale size effects, strain gradient plasticity (SGP) theories can lead to uncommon phenomena for some boundary value problems. Almost all non-incremental ...
-
Article dans une revue avec comité de lectureKossel microdiffraction in a scanning electron microscope enables determination of local elastic strains. With Kossel patterns recorded by a CCD camera and some automation of the strain determination process, this technique ...